123 lines
3.6 KiB
JavaScript
123 lines
3.6 KiB
JavaScript
import { getStructReference } from '../Util/structReferences.js'
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import ID from '../Util/ID/ID.js'
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import { logID } from '../MessageHandler/messageToString.js'
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/**
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* @private
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* Delete all items in an ID-range
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* TODO: implement getItemCleanStartNode for better performance (only one lookup)
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*/
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export function deleteItemRange (y, user, clock, range) {
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const createDelete = y.connector !== null && y.connector._forwardAppliedStructs
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let item = y.os.getItemCleanStart(new ID(user, clock))
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if (item !== null) {
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if (!item._deleted) {
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item._splitAt(y, range)
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item._delete(y, createDelete)
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}
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let itemLen = item._length
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range -= itemLen
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clock += itemLen
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if (range > 0) {
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let node = y.os.findNode(new ID(user, clock))
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while (node !== null && range > 0 && node.val._id.equals(new ID(user, clock))) {
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const nodeVal = node.val
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if (!nodeVal._deleted) {
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nodeVal._splitAt(y, range)
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nodeVal._delete(y, createDelete)
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}
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const nodeLen = nodeVal._length
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range -= nodeLen
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clock += nodeLen
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node = node.next()
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}
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}
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}
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}
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/**
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* @private
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* A Delete change is not a real Item, but it provides the same interface as an
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* Item. The only difference is that it will not be saved in the ItemStore
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* (OperationStore), but instead it is safed in the DeleteStore.
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*/
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export default class Delete {
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constructor () {
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this._target = null
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this._length = null
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}
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/**
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* @private
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* Read the next Item in a Decoder and fill this Item with the read data.
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*
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* This is called when data is received from a remote peer.
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*
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* @param {Y} y The Yjs instance that this Item belongs to.
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* @param {BinaryDecoder} decoder The decoder object to read data from.
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*/
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_fromBinary (y, decoder) {
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// TODO: set target, and add it to missing if not found
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// There is an edge case in p2p networks!
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const targetID = decoder.readID()
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this._targetID = targetID
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this._length = decoder.readVarUint()
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if (y.os.getItem(targetID) === null) {
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return [targetID]
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} else {
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return []
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}
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}
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/**
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* @private
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* Transform the properties of this type to binary and write it to an
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* BinaryEncoder.
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*
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* This is called when this Item is sent to a remote peer.
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*
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* @param {BinaryEncoder} encoder The encoder to write data to.
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*/
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_toBinary (encoder) {
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encoder.writeUint8(getStructReference(this.constructor))
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encoder.writeID(this._targetID)
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encoder.writeVarUint(this._length)
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}
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/**
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* @private
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* Integrates this Item into the shared structure.
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*
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* This method actually applies the change to the Yjs instance. In the case of
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* Delete it marks the delete target as deleted.
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*
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* * If created remotely (a remote user deleted something),
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* this Delete is applied to all structs in id-range.
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* * If created lokally (e.g. when y-array deletes a range of elements),
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* this struct is broadcasted only (it is already executed)
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*/
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_integrate (y, locallyCreated = false) {
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if (!locallyCreated) {
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// from remote
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const id = this._targetID
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deleteItemRange(y, id.user, id.clock, this._length)
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} else if (y.connector !== null) {
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// from local
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y.connector.broadcastStruct(this)
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}
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if (y.persistence !== null) {
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y.persistence.saveStruct(y, this)
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}
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}
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/**
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* Transform this YXml Type to a readable format.
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* Useful for logging as all Items and Delete implement this method.
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*
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* @private
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*/
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_logString () {
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return `Delete - target: ${logID(this._targetID)}, len: ${this._length}`
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}
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}
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